FAQS: Grid computing

Are grids coming to a data center near you?

By John Moore

Jun 20, 2005

Grid computing is a way to share computing resources within and among organizations. The concept first emerged in the mid-1990s as academic researchers began exploring the rudiments of grid infrastructures. Around 2000, grids moved beyond the basic research stage as organizations began building grids to support scientific and technical computing applications.

Now, attention has shifted to the wider application of grid infrastructures in both commercial and government settings. Technology watchers believe grids will eventually become a staple of mainstream computing. Although some progress has occurred among enterprise data centers, that vision remains largely unfulfilled. Issues that block further adoption of grids include per-processor licensing requirements and a dearth of grid-enabled applications.

FAQWhat is grid computing, and what are the main variations?

Different definitions and interpretations of grids exist, some of them conflicting. Ian Foster, head of the Distributed Systems Laboratory at Argonne National Laboratory, defines a grid as a system that coordinates resources that are not subject to centralized control and live in different domains  for example, different groups within the same organization. Foster also defines grids as employing a mix of standard and open protocols and interfaces.

In this view, a grid is an open-source system that lets users in one group tap into computers and applications residing in other, possibly far-flung groups. The Global Grid Forum (GGF) aims to standardize this vision of grid computing. It promotes the Open Grid Services Architecture, which defines a set of core capabilities for grid computing. The forum works with the Globus Alliance, which backs development of the Globus Toolkit, an open-source utility for building grids.

Meanwhile, a number of major hardware and software vendors have developed their own variations on the grid theme, including Hewlett-Packard, Oracle and Sun Microsystems, to name a few. IBM has a grid computing initiative, but the company works closely with GGF and the Globus Alliance.

Those companies also describe grids in terms of shared computing resources and support standards such as Web services.

FAQShould I choose a vendor-specific or an open-source grid?

Vendors' proprietary grid architectures don't communicate with one another. In other words, a user in one vendor's grid environment can't access resources in another vendor's grid.

Proprietary systems "will federate computing or data for you, but only on the condition that you buy into a particular vendor's approach," Foster said. "There are a lot of concerns about that and pressure on vendors to adopt standards so [users] can plug and play products from different sources."

But the Enterprise Grid Alliance (EGA) offers a different take on the interoperability issue. Oracle was the initial force behind this group, which was created last year. In May, the alliance published a reference model for enterprise grids. Peter Lee, chief executive officer of DataSynapse, an alliance member, called the reference model a good start toward "defining how a number of different vendors can interoperate."

Lee said he doesn't expect to see a single specification dominate grid computing the way the widely used Java 2 Platform, Enterprise Edition dominates the development of enterprise applications that are portable among diverse computing platforms.

Instead, a number of vendor-specific grids will exist, and eventually, interoperability standards will link them, he added.

Still, the broad objectives of organizations such as GGF, EGA and others are not necessarily at odds, grid builders said.

"I would say there is a strong sentiment in the community  not just academic researchers but industry  for these various groups like EGA, GGF and [the World Wide Web Consortium] to coordinate in some way," said Charlie Catlett, a senior fellow at the Argonne lab and executive director of the TeraGrid initiative funded by the National Science Foundation.

The issue of which grid approach to choose doesn't have to be an either/or proposition, said Mike Bernhardt, CEO of Grid Strategies, a consulting firm focused on grid computing. A commonly shared, open grid will benefit some customers, while others will find proprietary grids suitable for their purposes, he said.

"Generally speaking, the grid standards and, therefore, standards-based implementations are not yet mature enough or pervasive enough to always choose one for a grid project," said Al Bunshaft, IBM's vice president of grid computing sales and business development. "Therefore, we have a maturing and evolving market today with a mixture of types of software and implementations."

For example, a scientific computing center that needs to collaborate with universities and laboratories might gravitate toward the open-source model. Scientists are already using that approach for projects involving researchers worldwide. For example, the Large Hadron Collider (LHC) project was the focus of a recent international grid-testing exercise that spanned the LHC Computing Grid and the Open Science Grid. CERN, the Geneva-based particle physics laboratory, is building the collider, which will study the properties of subatomic particles. It is scheduled to begin operations in 2007.

"To deliver science from the LHC, we need working, interoperable grids," said Ruth Pordes, associate head of the Fermi National Accelerator Laboratory's Computing Division and a member of the Open Science Grid Consortium's board. She said she and other members of the scientific community favor the evolution of a common grid model.

However, an organization seeking to deploy grid computing internally might opt for technology offered through a familiar hardware or software supplier.

FAQAre there different kinds of grids for different purposes?

Tim Hoechst, senior vice president of technology in Oracle's Government, Education and Healthcare Division, said different types of computing problems lend themselves to different types of grids. He made the distinction between processor grids and data grids. A processor grid deals with a problem that can be broken into pieces and processed on multiple computers. A data grid handles problems that can't be subdivided and must instead run continuously on multiple computers. He said Oracle concentrates on the latter.

For an example of a processor grid, Hoechst cited the Search for Extraterrestrial Intelligence project, which broke the task of sorting radio signals into chunks and assigned them to thousands of computers. An example of a data grid is a database running across a cluster of computers.

FAQWhat are the benefits of building a grid?

Bernhardt and others said they view the ability to coordinate and share resources as the primary benefits of grid computing. Grids let an organization draw on resource pools within and, in some cases, outside the organization to accomplish a given computing task.

Grid computing maximizes other resources, such as processing power, memory and storage, and improves their efficiency.

FAQCan mainstream data centers use grid technology?

Grid advocates believe the technology will appeal to data centers seeking to adopt a computing infrastructure that is normally beyond their reach. But the use of grids in general enterprise settings, as opposed to high-performance computing centers, has only begun to grow in the past few months, experts say.

"We're starting to see an increased amount of grid deployment in the enterprise space," said Walter Stewart, global coordinator of grid strategy at Silicon Graphics.

Steve Tuecke, CEO of Univa and co-founder of the Globus Alliance, said the financial services sector leads mainstream data centers in pursuing grids. Univa plans to release commercial versions of Globus software in the second half of this year.

A similar level of activity at government data centers has yet to kick in, grid experts say.

"It's a work in progress," Foster said of enterprise data center adoption, adding that a few government agencies are planning to launch exploratory grid deployments.

Meanwhile, a number of sources pointed to the Environmental Protection Agency's grid project as a sign of wider government adoption of the technology. A test project announced last September employs grid computing to improve air quality modeling. IBM and Computer Sciences Corp. collaborated on the project. One of the software products used in the test was IBM's Grid Toolbox, which is based on the Globus Toolkit.

"EPA was and still is exploring how to use grid to better service their users," Bunshaft said.

EGA aims to further expand grid computing's inroads at data centers. The organization's reference model "helps describe requirements and standards and is designed to help accelerate enterprise grid adoption," Lee said.